Defect-mediated ferromagnetism in ZnO:Mn nanorods

In this work, the structural, chemical and magnetic properties of ZnO:Mn nanorods were investigated. Firstly, well-aligned ZnO nanorods with their long axis parallel to the crystalline c-axis were successfully grown by the vapor phase transport technique on Si substrates coated with a ZnO buffer layer. Mn metal was then diffused into these nanorods at different temperatures in vacuum. From SEM results, ZnO:Mn nanorods were observed to have diameters of ~100 nm and lengths of 4 µm. XPS analysis showed that the Mn dopant substituted into the ZnO matrix with a valence state of +2. Magnetic measurements performed at room temperature revealed that undoped ZnO nanorods exhibit ferromagnetic behavior which may be related to oxygen vacancy defect-mediated d0 ferromagnetism. ZnO:Mn samples were seen to show an excess room temperature ferromagnetism that is attributed to the presence of oxygen vacancy defects forming bound magnetic polarons involving Mn

Powering Ahead: Current Landscape of Electric Vehicles (EV) in India

Electric vehicles have gained widespread acceptance globally, driven by increasing awareness of environmental issues and government initiatives promoting sustainable transportation. The market for electric vehicles has witnessed exponential growth, with major automotive manufacturers investing heavily in research and development to bring innovative and competitive electric models to the market. The core technology of electric vehicles revolves around electric powertrains, which replace traditional internal combustion engines with electric motors powered by rechargeable batteries. This shift not only reduces reliance on fossil fuels but also significantly decreases greenhouse gas emissions, contributing to the mitigation of climate change. Recent advances in battery technology, particularly in energy density and cost reduction, play a pivotal role in enhancing the range and affordability of electric vehicles. The transition towards electric vehicles (EVs) has gained significant momentum in India, in recent years. This paper examines the current status of electric vehicles in the Indian market, including government initiatives, infrastructure development, challenges, and future prospects. The analysis highlights the key factors driving the adoption of EVs, the state of charging infrastructure, policy framework, and the impact of electric mobility on the environment and the economy

In-vivo anti-hyperglycemic effect of herbal extracts Tribulus terrestris (L) and Curcuma amada (R) on streptozotocin-induced diabetic rats and its associated histopathological studies

Dia/betes is a serious health concern in many countries with high blood glucose, obesity, and multiple organ failures in late stages. Treating diabetes with effective drugs is still a challenging issue since most of the available diabetic drugs are not effective in combating diabetes, especially in secondary disease complications like obesity, retinopathy, and nephropathy associated with diabetes. Hence search for effective antidiabetic medication, especially from natural sources is mandatory with no adverse side effects. In the present study, a combined herbal aqueous extract of Tribulus terrestris and Curcuma amada was administered to diabetic-induced rats for 37 days. During experimentation, the mean blood glucose level was estimated and at the end of the experiment on the 37th day, the animal was sacrificed and observed for weight gain, plasma insulin, glycogen, glycated hemoglobin, urea, and creatinine level. The results revealed that TT and CA extract-treated diabetic groups significantly lowered the mean blood glucose level followed by increased glycogen and insulin level. Urea, creatinine, and HbA1c levels were considerably reduced in TT and CA-treated diabetic animals as compared to that of antidiabetic drug Glibenclamide-treated groups. TT and CA-treated diabetic animals showed considerable net body weight gain at the end of the experimental day. A concluding remark of the study shows that TT and CA herbal extract is effective against diabetes and it can be considered as an antidiabetic agent in ayurvedic medicine practice